Forum for Science, Industry and Business

Cytokine resistance contributes to pathology of type 2 diabetes

15.06.2007

In a study appearing this month in the Journal of Immunology, researchers at the University of Illinois describe how an impaired anti-inflammatory response plays a role in the pathology of type 2 diabetes.

Type 2 diabetes is classified as a metabolic disorder, but a growing number of researchers are beginning to think of it also as a disease of the innate immune system. Inflammation, a key component of the early immune response, is chronically elevated in people with type 2 diabetes. While the pro-inflammatory pathways of type 2 diabetes have received much attention, the anti-inflammatory side of the equation is less well known.

The new study focused on a number of cytokines, protein signals that bind to specific receptors on cells and set off a cascade of biochemical reactions within the cell. Interleukins, interferons, tumor necrosis factors and some growth factors are among the cytokines that direct many aspects of the immune response. Cytokines are secreted by many types of cells, including the immune cells known as macrophages.

In earlier studies, the researchers had shown that macrophages in diabetic and obese (diabese) mice secrete more pro-inflammatory and less anti-inflammatory cytokines than those of nondiabese mice. The team, led by pathology professor and department head Gregory Freund, also had demonstrated that human monocytes cultured under type 2 diabetic conditions had impaired interleukin-4 signaling. Interleukin

4 (IL-4) is an important player in the immune response in that it steers macrophages toward the production of other anti-inflammatory cytokines. It also inhibits secretion of the pro-inflammatory cytokines.

When IL-4 binds to its receptor on a target cell, it sets off one of two cascades of intracellular events.

The first of these signal transduction pathways, the Jak-STAT pathway, is well studied and well understood. The second, called the insulin receptor substrate 2 / phosphatidylinositol-3 kinase (IRS-2/PI3K) pathway, was more of a mystery, and of greater interest to Freund and his colleagues.

What drew them to this pathway was its potential role in the anti-inflammatory response, and its similarity to the cascade initiated when cells respond to insulin.

"One of the actions of diabetes is to create intracellular insulin resistance," Freund said. "Some of the cytokines that work on cells share the same pathways as the insulin receptor." Since diabetes causes insulin resistance, Freund said, "shouldn't there be a resistance to cytokines, too? And that is what we found."

The research team showed, for the first time, that the IRS-2 signaling arm of the interleukin-4 pathway directed the up-regulation of a key anti-inflammatory molecule in primary macrophages, and that this pathway was disrupted in type 2 diabetic conditions. They also showed that the loss of IL-4 function in diabese mice caused chronic over-expression of an important suppressor of cytokine signaling (SOCS) protein. This SOCS-3 protein aborts the cascade of events that normally leads to insulin uptake and/or cytokine signaling in a balanced inflammatory response.

This study supports earlier findings that inflammation is a key part of the pathology of diabetes, Freund said. Pro-inflammatory cytokines are elevated in type 2 diabetes, but the anti-inflammatory mechanisms are also impaired, leading to a multitude of major and minor health issues in the diabese.

"They get a cold. They get injured. Something happens. And it's worse in those people with obesity or diabetes and lasts longer than it does in others," Freund said. "Why? The imbalance may be the elevation in pro-inflammation. But it probably also includes a loss of anti-inflammatory function."

This research was supported by grants from the National Institutes of Health, American Heart Association, and the U. of I. Agricultural Experiment Station.

Die letzten 5 Focus-News des innovations-reports im Überblick:

Whether you call it effervescent, fizzy, or sparkling, carbonated water is making a comeback as a beverage. Aside from quenching thirst, researchers at the University of Illinois at Urbana-Champaign have discovered a new use for these "bubbly" concoctions that will have major impact on the manufacturer of the world's thinnest, flattest, and one most useful materials -- graphene.

As graphene's popularity grows as an advanced "wonder" material, the speed and quality at which it can be manufactured will be paramount. With that in mind,...

Physicists at the University of Bonn have managed to create optical hollows and more complex patterns into which the light of a Bose-Einstein condensate flows. The creation of such highly low-loss structures for light is a prerequisite for complex light circuits, such as for quantum information processing for a new generation of computers. The researchers are now presenting their results in the journal Nature Photonics.

Light particles (photons) occur as tiny, indivisible portions. Many thousands of these light portions can be merged to form a single super-photon if they are...

For the first time, scientists have shown that circular RNA is linked to brain function. When a RNA molecule called Cdr1as was deleted from the genome of mice, the animals had problems filtering out unnecessary information – like patients suffering from neuropsychiatric disorders.

While hundreds of circular RNAs (circRNAs) are abundant in mammalian brains, one big question has remained unanswered: What are they actually good for? In the...

A study led by scientists of the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) at the Center for Free-Electron Laser Science in Hamburg presents evidence of the coexistence of superconductivity and “charge-density-waves” in compounds of the poorly-studied family of bismuthates. This observation opens up new perspectives for a deeper understanding of the phenomenon of high-temperature superconductivity, a topic which is at the core of condensed matter research since more than 30 years. The paper by Nicoletti et al has been published in the PNAS.

Since the beginning of the 20th century, superconductivity had been observed in some metals at temperatures only a few degrees above the absolute zero (minus...